KR200218431Y1 - A terminal box for power and optic complexed cable - Google Patents

Abstract

The present invention relates to a terminal box for an optical power composite cable, and in particular, a body having an upper surface opening, a cable inlet, a cable outlet, an optical jumper outlet, a power line outlet, respectively formed on the side wall of the body, and through An optical fiber storage unit which is installed at an inner side of the optical fiber wire branched from the optical power composite cable drawn through the cable inlet and connected to the optical core wire branched from the optical cable drawn through the cable inlet; A loose tube fitting part installed next to the core wire storage part to wind the loose tubes of the optical cable introduced through the cable inlet, and installed inside the loose tube fitting part and branched from the optical power composite cable to the power line and the cable inlet part; Power line branching part that connects power line of incoming power cable to each other And a cover installed on the upper side of the body to block the internal space of the body from the external space, so that an optical communication network and an electric power network can be constructed using an optical power composite cable in which the optical cable and the power cable are mounted together. There is no need to provide a separate terminal box for the communication network and power grid.

Description

Terminal box for optical power composite cable {A TERMINAL BOX FOR POWER AND OPTIC COMPLEXED CABLE}

The present invention relates to a terminal box for an optical power composite cable used for branching and connecting an optical cable or a power cable, and in particular, an optical communication network and a power network can be simultaneously constructed using an optical power composite cable mounted with an optical cable and a power cable. To a terminal box for an optical power composite cable.

Recently, the optical fiber communication method using optical cable, which is called the transmission line of dream, is mainly used for voice and data communication, and the optical power composite cable equipped with the power cable for supplying power to the optical cable and the transmission device is used. This is emerging.

In general, the optical power composite cable has a structure in which three power cables 1A, 1B, 1C, and three optical cables 3A, 3B, 3C are mounted together, as shown in FIG. Between the power cables 1A, 1B, 1C, and each optical cable 3A, 3B, 3C, an intervening seam 5 having good elasticity is provided, and on the outside of the interposition seam 5 It is covered with a binder layer 7 and covered with an insulating layer 9 on the outer circumferential surface of the binder 7.

Each of the power cables 1A, 1B, and 1C made of copper (Cu) is covered with a first insulating layer (1) made of synthetic resin on an outer circumferential surface thereof, and outside the first insulating layer (1). The second insulating layers 2 made of synthetic resin are respectively coated to increase the breakdown voltage, and the outer circumferential surfaces of the optical cables 3A, 3B, 3C are covered with an insulating layer 4 made of synthetic resin.

As described above, in order to construct an optical communication network and a power network using an optical power composite cable composed of a plurality of strands of optical cables 3A, 3B, 3C and a plurality of strands of power cables 1A, 1B, 1C, There is a need for a terminal box for branching and connecting cables, and until now no terminal box suitable for an optical power composite cable has been developed.

Therefore, in the related art, an optical communication network and an electric power network must be separately constructed by using optical cables 3A, 3B, 3C, and power cables 1A, 1B, and 1C, respectively, and thus, a terminal box required for this purpose is also used in the optical cable 3A. (3B) (3C) and power cables (1A) (1B) and (1C) were installed separately.

Here, the terminal box is a cable inlet, cable outlet, the cable outlet is formed in the form of a hole in the body, respectively, after cutting each cable is inserted into the inside of the body through the cable inlet and the cable outlet through the cable inlet The above cables are branched and connected.

However, in the conventional method as described above, in order to construct an optical communication network and an electric power network, an optical cable and a power cable must be installed separately, and a terminal box for the optical cable and the power cable must be separately installed. There was a problem that it is difficult to maintain and repair.

In addition, the conventional method has a problem that the terminal box is not good for the environmental beautification of the street because the space occupied by the terminal box has to be separately provided for the optical cable and the power cable.

In addition, the conventional method described above causes a fatal problem in that the optical composite cable cannot be kept in a live state when it is necessary to pass the optical core without cutting it.

The present invention has been made to solve the various problems as described above, the object of the present invention is to use the optical power cable and the optical cable and the power network to build an optical communication network and power network by using a combination of the optical power cable mounted with the power cable In order to provide a terminal box for an optical power composite cable does not need to provide a separate terminal box.

In addition, another object of the present invention is to provide a terminal box for an optical power composite cable that can be installed in the terminal box without cutting each cable to simplify the installation of each cable.

The terminal box for an optical power composite cable according to the present invention for achieving the above object is a cable inlet, cable outlet, optical jumper outlet, power line outlet, which is formed on the side of the body and each cable is penetrated through the opening of the body, respectively And an optical fiber storage unit installed at an inner side of the body and connected to an optical fiber wire branched from the optical power composite cable drawn through the cable inlet and a fiber core branched from the optical cable drawn through the cable inlet. And a loose tube fitting part installed next to the optical fiber storage part to wind and process the loose tubes of the optical cable introduced through the cable inlet, and a power line installed inside the loose tube fitting part and branched from the optical power composite cable. The power lines of the power cable drawn through the cable inlet are connected to each other Ryeokseon installed on the branch and the upper side of the body characterized in that it includes a cover for blocking the external space to the internal space of the body.

In addition, the present invention is composed of a body having an upper surface opening and a cover installed on the upper side of the body and the optical power composite having a cable inlet, a cable outlet, an optical jumper outlet, a power line outlet, each cable is passed through the side wall of the body In the terminal box for a cable, a portion of the body corresponding to the cable inlet, the cable outlet, the optical jumper outlet, the power line outlet is formed with a cutout so that each cable can be directly inserted from the top to the bottom, After each cable is seated, a side cover is provided to block the internal space of the body from the external space, and the cable inlet, the cable outlet, the optical jumper outlet, and the power line outlet are respectively provided at the contact surface of the cutout and side cover. Formed on both sides of each cutout; That is a guide member for guiding and supporting each of the installed features.

In addition, the present invention is characterized in that the side cover is configured to be fixed to the guide member by a plurality of bolts.

In addition, the present invention is characterized in that the sealing member is installed on at least one of both side surfaces of the side cover and the inner surface of each of the guide members corresponding thereto so that the inner space of the body is completely blocked from the outer space.

In addition, the present invention forms the cable inlet, the cable outlet, the optical jumper outlet, and the power line outlet, respectively, on the lower surface of the side cover and the lower surface of the cutout corresponding thereto, and at the same time, a semicircular upper seating hole and a lower seating hole on which each cable is seated and supported. It is characterized in that the seating port is formed.

In addition, at least one of the inner surface of the cable inlet, the cable outlet, the optical jumper outlet, the power line outlet and the outer peripheral surface of each cable corresponding to the cable inlet, the sealing member is provided so as to completely block the inner space of the body from the outer space. It is characterized by being installed.

1 is a longitudinal sectional view showing a general optical power composite cable,

Figure 2 is a plan view showing a terminal box for an optical power composite cable according to the present invention,

3 is a front view of FIG. 2;

4 is a right side view of FIG. 2;

5 is an exploded perspective view showing an enlarged main part of a terminal box for an optical power composite cable according to the present invention (cable inlet, cable outlet, optical jumper outlet, and power line outlet).

<Explanation of symbols for main parts of the drawings>

51 body 53 cable entry port

55: cable outlet 57: optical jumper outlet

59: power line outlet 61: incision

61A: Upper seat 63: Side cover

63A: Lower seating hole 65: Guide member

67: bolt 69: sealing member for the side cover

71: sealing member for cable 73: optical fiber storage unit

75: loose tube cosine 77: power line branch

83: sealing member for the cover 90: cover

92: key member

Hereinafter, a terminal box for an optical power composite cable according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a plan view illustrating a terminal box for an optical power composite cable according to the present invention, FIG. 3 is a front view of FIG. 2, FIG. 4 is a right side view of FIG. 2, and FIG. 5 is an optical power composite cable according to the present invention. It is an exploded perspective view showing enlarged main parts of the terminal box (cable inlet, cable outlet, optical jumper outlet and power line outlet).

2 to 5, the terminal box for the optical power composite cable according to the present invention is composed of a rectangular parallelepiped-shaped body 51, the upper surface is opened, the internal space of the body 51 is blocked from the external space The cover 90 is covered on the upper side of the body 51 to make.

A cable inlet 53 through which the optical power composite cable is introduced is formed at one side of the side wall of the body 51, and an optical power composite cable is opposite to the cable inlet 53 among the side walls of the body 51. This cable lead-out port 55 is formed to penetrate through.

In addition, an optical jumper outlet 57 through which an optical cable is drawn is formed through the cable inlet 53 of the side wall of the body 51, and the optical jumper outlet 57 of the side wall of the body 51 is formed therethrough. A power line lead-out port 59 through which the power cable is drawn out is formed through the opposite side.

Here, the parts corresponding to the cable inlet 53, the cable outlet 55, the optical jumper outlet 57, the power line outlet 59 of the body 51 so that each cable can be directly inserted from the top to the bottom. Cut portions 61 are formed, and each cut portion 61 has a side so that the inner space of the body 51 can be blocked from the outer space after each cable is seated in the cut portion 61. The cover 63 is provided, respectively.

The cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet 59 are each formed by a contact surface between the cutout 61 and the side cover 63. On both sides of the cutout 61, guide members 65 for guiding and supporting the installation of the side cover 63, respectively, are integrally installed.

In addition, the guide member 65 is formed to have a c-shaped cross section so that one side is attached to the inner side of the body 51 and the other side is to support the side cover 63.

In addition, the side cover 63 is fixed to the guide member 65 by a plurality of bolts (67) and nuts (68), each of the guide member 65 corresponding to both sides of the side cover (63) On the inner side, the receiving groove 69 is formed so that both ends of the side cover 63 can be inserted and fixed to completely block the inner space of the body 51 from the outer space.

In the above description, the receiving groove 69 is formed in the guide member 65, and pushed both ends of the side cover 63 in the guide member 65 as an example, but the present invention is not limited thereto. Or, for example, even if formed in the guide member elongated projections from the top to the bottom facing each other, even if the receiving grooves are formed to fit the projections on both end surfaces of the side cover is of course included in the concept of the present invention.

The cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet 59 are respectively disposed on the bottom surface of the side cover 63 and the bottom surface of the cutout 61 corresponding thereto. At the same time, a semicircular upper seating port 63A and a lower seating port 61A are formed to which each cable is seated and supported.

In addition, the outer space of each cable corresponding to the cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet 59 may completely block the internal space of the body 51 from the external space. The cable sealing member 71 is provided, and the cable sealing member 71 is preferably formed of an annular rubber ring.

In the above description, the cable sealing member 71 is installed on the outer circumferential surface of each cable, for example, but the present invention is not limited thereto. For example, the cable inlet 53 and the cable outlet 55 are not limited thereto. The optical jumper outlet 57 and the power line outlet 59 may be included in the concept of the present invention.

In addition, the inner side of the body 51 is a fusion-type or mechanical type optical fiber branched from the optical power composite cable introduced through the cable inlet 53 and optical fiber branched from the optical cable introduced through the cable inlet 53 After connecting by the connection system, the optical core storage unit 73 is formed to fix the connection unit.

In addition, the loose tubes are wound around the optical fiber storage unit 73 by winding loose tubes of the optical cable introduced through the cable inlet 53, and at the same time, the loose tubes. It is provided with a loose tube female portion 75 to perform the role of storing the non-branched loose tubes. In the above description, the filtering process means the winding of the loose tube in which the optical fiber is passed is stored in the loose tube filtering unit 75.

In addition, the inside of the loose tube female portion 75 is provided with a power line branch 77 which is connected to the power line branched from the optical power composite cable and the power line of the power cable drawn through the cable inlet 53.

In addition, the cover 90 is fixed to the body 51 to be opened and closed by a hinge hinge 79, the opening and closing hinge 81 mounted on the opposite side of the hinge hinge 79 determines whether the opening and closing A plurality of key members 92 are installed for security and safety.

Finally, the sealing member 83 for the cover is mounted on the upper surface of the body 51 in contact with the lower surface of the cover 90 so that the inner space of the body 51 is completely blocked from the outer space.

In the above description, although illustrated and described with reference to specific embodiments, the present invention is not limited to this, for example, by those of ordinary skill in the art without departing from the concept of the present invention Of course, the design can be changed in various ways.

According to the terminal box for the optical power composite cable according to the present invention constructed and operated as described above, it is possible to simultaneously build an optical communication network and a power network using the optical power composite cable mounted with the optical cable and the power cable. Since there is no need to provide a separate terminal box for the power grid, the construction work is simple, the construction cost is reduced, maintenance and repair work is also very excellent effect.

In addition, the present invention does not need to install a separate terminal box for the optical communication network and power grid, the total number of terminal boxes can be reduced to 1/2, so that the space occupied by the terminal box is reduced as well as the aesthetics of the surroundings is very excellent effect There is.

In addition, the terminal box for the optical power composite cable according to the present invention can be installed in the body without cutting each cable has an excellent effect, such as installation of each cable is very simple and easy.

Claims (6)

Body 51 with an upper surface opened, A cable inlet 53, a cable outlet 55, an optical jumper outlet 57, and a power line outlet 59, respectively formed on the side wall of the body 51 and through which each cable passes; An optical fiber wire branched from an optical power composite cable installed at an inner side of the body 51 and branched from the optical power composite cable drawn through the cable inlet 53 is connected to an optical core wire branched from the optical cable drawn through the cable inlet 53. An optical fiber storage unit 73 to which the unit is fixed; A loose tube fitting unit 75 installed next to the optical fiber storage unit 73 to wind and process the loose tubes of the optical cable introduced through the cable inlet 53; A power line branch 77 installed inside the loose tube fitting part 75 and connected to a power line branched from an optical power composite cable and a power line of a power cable drawn through the cable inlet 53; It is installed on the upper side of the body 51 terminal box for an optical power composite cable, characterized in that it comprises a cover (90) for blocking the internal space of the body (51) with the external space. The cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet 59 formed in the body 51 may directly insert the cables from the upper side to the lower side. Incision 61 is formed so that, Each cover 61 is provided with a side cover 63 so as to block the internal space of the body 51 from the external space after each cable is seated in the incision 61, The cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet 59 are formed by the contact surfaces of the cutout 61 and the side cover 63, respectively. Both sides of each cutout portion 61 is a terminal box for an optical power composite cable, characterized in that the guide member 65 for guiding and supporting the installation of each side cover 63 is installed, respectively. 3. The terminal box according to claim 2, wherein the side cover (63) is fixed to the guide member (65) by a plurality of bolts. The sealing member of claim 2, wherein at least one of both side surfaces of the side cover 63 and an inner surface of each of the guide members 65 corresponding to the sealing member is completely blocked from the outer space of the body 51. A terminal box for an optical power composite cable, characterized in that 71 is provided. 3. The cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet are respectively formed on the bottom surface of the side cover 63 and the bottom surface of the cutout 61 corresponding thereto. A terminal box for an optical power composite cable, wherein a semicircular upper seating port (63a) and a lower seating hole (61A) are formed to form (59) and to which each cable is seated and supported. The body of claim 2, wherein at least one of the inner surface of the cable inlet 53, the cable outlet 55, the optical jumper outlet 57, and the power line outlet 59 and the outer circumferential surface of each cable corresponding thereto is formed on the body ( 51) A terminal box for an optical power composite cable, characterized in that a sealing member is installed to completely block the internal space from the external space.